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1.
Molecules ; 23(8)2018 Jul 26.
Article in English | MEDLINE | ID: mdl-30049981

ABSTRACT

A series of novel benzophenone derivatives containing a thiazole heterocyclic nucleus were designed by molecular hybridization. Molecular docking studies have demonstrated the inhibitory potential of the designed compounds against cyclooxygenase (COX) isoenzymes. These compounds were synthesized, characterized, and evaluated for their anti-inflammatory properties by the croton oil-induced ear edema assay to examine their effect on both prostaglandin (PG) production and neutrophils recruitment. The thiazole derivatives displayed a potent effect in terms of reducing ear edema. The analysis suggested that the presence of 4-phenyl-2-hydrazinothiazole and the absence of C4'-OCH3 on the benzophenone derivative structure are strongly related to the inhibition of PG production. In addition, the derivatives 2e, 3a and 3c concomitantly inhibit PG production and neutrophil recruitment, which may be a mechanism of action better than of common NSAIDs due to their inability to inhibit the neutrophil recruitment. Thus, these compounds can be considered as potential lead compounds toward the development of new anti-inflammatory drugs with an innovating mechanism of action.


Subject(s)
Anti-Inflammatory Agents/chemistry , Anti-Inflammatory Agents/pharmacology , Benzophenones/chemistry , Benzophenones/pharmacology , Drug Design , Edema/pathology , Neutrophil Infiltration/drug effects , Animals , Anti-Inflammatory Agents/chemical synthesis , Benzophenones/chemical synthesis , Binding Sites , Catalytic Domain , Cyclooxygenase 1/chemistry , Cyclooxygenase 2/chemistry , Cyclooxygenase Inhibitors/chemistry , Disease Models, Animal , Edema/drug therapy , Isomerism , Mice , Molecular Docking Simulation , Molecular Dynamics Simulation , Molecular Structure , Protein Binding , Structure-Activity Relationship
2.
Chem Biol Drug Des ; 86(4): 459-65, 2015 Oct.
Article in English | MEDLINE | ID: mdl-25556966

ABSTRACT

New Mannich base-type eugenol derivatives were synthesized and evaluated for their anticandidal activity using a broth microdilution assay. Among the synthesized compounds, 4-allyl-2-methoxy-6-(morpholin-4-ylmethyl) phenyl benzoate (7) and 4-{5-allyl-2-[(4-chlorobenzoyl)oxy]-3-methoxybenzyl}morpholin-4-ium chloride (8) were found to be the most effective antifungal compounds with low IC50 values, some of them well below those of reference drug fluconazole. The most significant IC50 values were those of 7 against C. glabrata (1.23 µm), C. albicans and C. krusei (both 0.63 µm). Additionally, the synthesized compounds were evaluated for their in vitro cytotoxic effects on human mononuclear cells. As result, the cytotoxic activity of eugenol in eukaryotic cells decreased with the introduction of the morpholinyl group. Given these findings, we point out compounds 7 and 8 as the most promising derivatives because they showed potency values greater than those of eugenol and fluconazole and they also presented high selectivity indexes.


Subject(s)
Antifungal Agents , Candida/growth & development , Candidiasis/drug therapy , Cytotoxins , Eugenol/pharmacology , Leukocytes, Mononuclear/metabolism , Antifungal Agents/chemical synthesis , Antifungal Agents/chemistry , Antifungal Agents/pharmacology , Cytotoxins/chemical synthesis , Cytotoxins/chemistry , Cytotoxins/pharmacology , Eugenol/chemistry , Humans , Leukocytes, Mononuclear/cytology
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